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Beilstein J. Nanotechnol. 2013, 4, 406–417, doi:10.3762/bjnano.4.48
Figure 1: Evaporation time and flux dependence of the growth of the Ni-clusters without further annealing. ST...
Figure 2: Analysis of the growing behaviour: (a) coverage of the surface, (b) cluster height and (c) cluster ...
Figure 3: Analysis of the height (a) and width (b) dependence on deposition time (black circles) and flux (bl...
Figure 4: Temperature dependence of the annealing behaviour of the Ni clusters. STM topographic images of the...
Figure 5: Temperature dependence of the annealing behaviour for (a) the height of the clusters, (b) the perce...
Figure 6: Arrhenius plot for analyzing the diffusion process of the Ni on HOPG. Two regimes are distinguishab...
Figure 7: STM images of the HOPG surface (a) before, and (b) after the picking up of an individual cluster. T...
Figure 8: (a) Typical records of the current, bias and z-feedback signals for a successful pick-up. The jumpi...
Figure 9: Forces involved in the process of picking up a Ni cluster. The tip–sample distance at which the att...
Beilstein J. Nanotechnol. 2012, 3, 186–191, doi:10.3762/bjnano.3.20
Figure 1: (a) SFM image showing part of a large pentacene island that overgrows two monoatomic substrate step...
Figure 2: Pattern I. Imaged with an angle of 45°. (a) Topograph. (b) Simultaneously acquired dissipation sign...
Figure 3: Pattern II. (a) Image displaying a defect. (b) Imaged with an angle of 45°. (c) Magnification of th...
Figure 4: Large-area scan of the area where Figure 2 and Figure 3 were recorded with molecular resolution. f0 = 160.440 kHz, Δ...